Danfoss VLT 5000 Flux (Legacy Product) Operating instructions

Brand: Danfoss

Model: VLT 5000 Flux (Legacy Product)

Type: Operating instructions

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Instruction Manual

DeviceNet

VLT

5000/ 5000 FLUX/ 6000 HVAC/ 8000 AQUA

VLT

5000/ 5000 FLUX/ 6000 HVAC/ 8000 AQUA

Instruction Manual

175R5287 MG50H422

XREF__BC

NOT LOADED ON RIP

*MG50H422*

REV. 2003-04-28

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

■ Contents

Introduction to Danfoss VLT series and DeviceNet

...................... 2

Product Overview ................................................................................................... 2

Product and Environment ....................................................................................... 2

Overall Function ..................................................................................................... 2

Network ................................................................................................................. 2

User Profile ............................................................................................................. 2

Data Communication Interface ............................................................................... 2

Initialization of VLT frequency converter Interface .................................................... 2

Network Variable Handling ..................................................................................... 3

Error Handling ........................................................................................................ 3

Overall Function ..................................................................................................... 3

Technical Data .................................................................................................. 5

Identity Object ........................................................................................................ 5

Message Router ..................................................................................................... 5

General Information ................................................................................................ 5

Network Power Supply ........................................................................................... 5

Cable Lengths ........................................................................................................ 6

Cable Specifications ............................................................................................... 6

Cable Cross Section ............................................................................................... 7

Connection of the Cable Screen ............................................................................. 7

Earth Connection ................................................................................................... 7

DeviceNet Connection ............................................................................................ 7

User Interface ......................................................................................................... 8

Understanding Module Configuration Switches ...................................................... 9

EMC Precautions ................................................................................................... 10

Setting the DeviceNet Node Address ..................................................................... 11

Switch Settings for DeviceNet Node Addressing .................................................... 11

Setting the Baud Rate ............................................................................................ 11

VLT Response Time ............................................................................................... 12

General Purpose Discrete I/O ................................................................................. 12

I/O Assembly Instances .......................................................................................... 12

Fieldbus Profile ................................................................................................ 13

Fieldbus Profile ....................................................................................................... 13

Control Word .......................................................................................................... 13

Status Word ........................................................................................................... 15

Control Word under VLT standard .......................................................................... 17

Status Word under VLT standard ............................................................................ 18

Control Word and Status Word under Instance 20/70 ............................................ 19

Programming .................................................................................................... 20

Quick Setup ........................................................................................................... 20

Special Attention .................................................................................................... 20

Warning and Alarm Messages ................................................................................ 26

Factory Settings ..................................................................................................... 27

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

■Product Overview

■Product and Environment

The DeviceNet Option Card is an interface between

the DeviceNet serial communication bus and the VLT

frequency converter from Danfoss. The option card

will function as an integrated part of the drive.

DeviceNet is a distributed control network. The

DeviceNet protocolis embedded in the controller option

cardand is acommunication protocol conformingto the

Open DeviceNet Vendor Association (ODVA) standard.

The option card allows DeviceNet compatible

controllers, sensors, and network management tools

to control, monitor, and supervise the VLT frequency

converter. The option is designed to the DeviceNet

System Protocol for Vendors as a slave device.

■Overall Function

A DeviceNet compatible device has the ability to

perform the following operations with the VLT frequency

converter over the DeviceNet network:

1. Control speed references and send drive

control commands.

2. Monitor the status of the drive, access alarm

and warning messages, and monitor drive

and motor information.

3. Upload and download drive settings, configure

drives, and also perform the operations

defined in 1 and 2.

Therefore, the level of control and flexibility of the VLT

frequency converter over the network depends on

the capabilities built into the controlling device.

The application program has the following functions:

1. Support interger parameters through the

dual ported RAM.

2. Manipulate the dual ported RAM parameters

to interface with the CAN.

3. Monitor network activity "watchdog" function to

determine Master – Slave communication continuity.

■Network

The VLT frequency converter will function as a slave

on the DeviceNet network. All addressing and linking

tonodesisdoneatinstallationtimebyanetwork

manager tool. The network installer and the network

management master have a significant influence on

how the node functions on the network. A DeviceNet

network can support up to 64 nodes.

■User Profile

The end-user is a network manager programmer or

a controller who see the DeviceNet control card as

a transparent bridge to the VLT frequency converter.

Control and supervision of the VLT frequency converter

will still be possible through the standard parameter set.

■Data Communication Interface

No direct data communication interface (e.g. via a

serial port) other than the DeviceNet interface and the

VLT frequency converter interface is considered.

■Initialization of VLT frequency converter Interface

The VLT frequency converter interface is initializ

ed in

three phases. The first two phases are initiated and

controlled by the VLT which will write commands to

the option card through the dual port RAM.

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Introduction to

Danfoss VLT series

and DeviceNet

Phase 1:

Is the initialization of the communication system.

During this phase the option card must respond

correctly to the VLT frequency converter initialization

command or else the VLT will not function and

display a "No Option Init" message.

Phase 2:

Is the interface watchdog function performed by

the option card as the first operational action. After

completion of this phase, data can be passed between

the VLT frequency converter and the option card

through the command channel in the dual port RAM.

Phase 3:

TheVLT frequencyconverterwill writeto the Initialization

Channel of the dual port RAM which will set the

displacement values of the various channels (Control

Channel, Status Channel, Command Channel 1,

Command Channel 2, Command Channel 3, Warning

Channel, and Spontan Channel), and the DeviceNet

option card software will read these displacements

and return a response to the VLT frequency converter

notifying that the initialization was successful or an

error was obtained in the process.

During operation (after initialization) the dual port RAM

interface is supervised by a watch-dog in the VLT

frequency converter. The VLT frequency converter will

be kept "alive" by cyclic writing to a channel in the dual

port RAM by the watch-dog handler of the option card.

■Network Variable Handling

The parameter access network variable is a structure

containing parameter number, data, value, and a

function code containing a read or write command.

The application program shall receive the data,

validate the data, convert the data to the format of

the VLT frequency converter, process the read or

write of the parameter, then send the information

back in an output network variable of the same

structure. This output variable would contain the

parameter number, error code information in the event

of an exception, and parameter value.

■Error Handling

The option card will stop sending a watchdog signal

to the VLT frequency converter when:

1. The node has been disconnected from the network

2. A network management tool has the

Option Card go Off-line

3. A hardware fault on the DeviceNet Option Card

PCB prevents reliable operation

By withholding the watchdog message, the VLT

frequency converter can detect a "Bus Time-out"

and enter secure, pre-defined state.

For recoverable errors such as [1] and [2] the option

card shall re-send the watchdog message when

the fault or condition has disappeared such as after

re-connection of the node to the network.

For unrecoverable errors such as [3] the application

program shall permit logging of network errors

without resetting or restarting the microprocessor.

This will send information to a network management

tool that will allow appropriate actions to be taken.

The only way to recover from a serious error is to

re-initialize the VLT frequency converter DeviceNet

option card by cycling power.

In case of serious VLT frequency converter fault, the

DeviceNet processor shall hold the CAN chip reset,

thereby disabling any communication to the node until

the VLT frequency converter has been re-initialized.

■Overall Function

DeviceNet is a low-level network that standa

rdizes

communications between industrial devices (sensors,

limit switches) and high level devices (controllers).

The communication network can be peer to p

eer or

master/slave. DeviceNet uses CAN technology for

Media Access Control and Physical Signaling and it

supports up to 64 nodes. DeviceNet also

defines

device profiles for devices belonging to specific classes.

For other devices, a custom class must be defined in

order to make it DeviceNet com

patible. This further

enhances the interchangeability and interoperability of

the network. Each node on the network has its own

unique media access contro

lidentifier(MACID)to

distinguish it on the network. The MAC ID is stored

in the header of the message which is split into four

different message group

s. However, DeviceNet only

makes use of three message groups keeping the fourth

one for future use. If two nodes attempt to get control

ofthenetworkbussimu

ltaneously, the CAN protocol

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

resolves the issue by arbitration. A dominant bit (0)

will win arbitration over a recessive bit (1).

For the VLT frequency converter, the option card

will be slave node on the DeviceNet network. The

option card will be a message server that will request

andsetparametersintheVLTviaadualported

RAM interface. The option card has an embedded

CAN controller that will screen all network messages

with a Mask and Match register. This feature

allows the option card to filter out any unwanted

messages from the network. The option card will

receive group 2 and group 3 messages. Group 2

messages allows the option card to use the predefined

Master/Slave connection set which identifies a use

for all group 2 message identifiers. The ability to

receive Group 3 messages allows the option card to

also be an Unconnected Explicit Message Manager

(UCMM) with the UCMM request and response

message identifier. Explicit message connections

are unconditionally point-to-point. Point-to-point

connections exist between two devices only.

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Technical

Data

■Technical Data

■Identity Object

This object is used to provide identification and

general information about the device. This object

is required by all DeviceNet products.

This object requires no class attributes. Its instance

attributes are the following:

Vendor 97

Device Type 2

Product Code Depends of the Drive

Revision - Major, Minor Depends of option

Status

Serial Number

Product Name VLT 5000

■Message Router

The Message Router object provides a messaging

connection point through which a Client may

address a service to

any object class or instance

residing in the physical device.

This object requires no class attributes. Its instance

attributes are the following:

1. Object List - Number of Classes

■General Information

Parameter 502 = "BUS".

Otherwise terminals 12 and 27 of the control card

must be connected, before motor start. In parameters

502-508 it is possible to define how to gate the control

commands from the DeviceNet with the equivalent

control commands of the digital inputs.

■Network Power Supply

The DeviceNet option is an optically isolated node,

where transceiver power is provided by the network.

External network power supply requirements are:

-11-25VDC

- 70 mA draw per VLT 5000 DeviceNet node

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

■Cable Lengths

Drop LengthBaud Rate Max. total cable length [m]

Maximum Cumulative

125k baud 500 meters (1640 ft.) 156 meters (512 ft.)

250k baud 250 meters (820 ft.) 78 meters (256 ft.)

500k baud 100 meters (328 ft.)

6 meters (20 ft.)

for one drop

39 meters (128 ft.)

■Cable Specifications

Physical Characteristi

Specification

Two shielded pairs Common axis with drain wire in center

Overall braid shield 65% coverage 36 AWG Cu braid.

(individually tinned)

Drain wire # 18 (19 x 30 AWG) Copper (individually tinned)

Outside diameter 0.475 ± 0.015 inches (rou

nd),

roundness - radius delta to be within 15% of 0.5 O.D.*

Jacket insulation * 0.040 inches minimum

Jacket marking * VendorName&Part#1Pr18and1Pr15AWG

shielded, additional markings are acceptable

Electrical Characteristics Specification

DRC (braid + tape + drain) 1.75 Ohms/1000 ft. (nom. @ 20°C)

Applicable Environmental Characteristics Specification

Agency Certifications (U.S. and Canada) NEC (UL) type, CL2/CL3 (min.)

Bend radius - installation / fixed 20xdiameter/7xdiameter

Operating ambient temperature -20° to + 60°C @ 8 amps; de-rate current linearly to

zero @ 80°C

Storage temperature -40° to + 85°C

Pull tension 190 Ibs max

* Other types of jacket insulation are allowable

provided that internal construction and electrical

charactersitics adhere to this specification.

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Technical

Data

■Cable Cross Section

■Connection of the Cable Screen

The screen of the DeviceNet cable must always

be connected to ground at both ends, that means

the screen must be connected to ground in all

stations connected to the DeviceNet network. It is

veryimportanttohavealowimpedanceground

connection of the screen, also at high frequencies.

This can be obtained by connecting the surface

of the screen to ground, for example by means of

a cable clamp or a conductive cable gland. VLT

frequency converter Series are provided with different

clamps and brackets to enable a proper ground

connection of the DeviceNet cable screen. The

screen connection is shown in the drawing.

■Earth Connection

It is important that all stations connected to the

DeviceNet network are connected to the same earth

potential. The earth connection must have a low HF

(high frequency) impedance. This can be achieved

by connecting a large surface area of the cabinet to

ground, for example by mounting the VLT frequency

converter on a conductive rear plate. Especially

when having long distances between the stations

in a DeviceNet network it can be necessary to use

additional potential equalizing cables, connecting the

individual stations to the same earth potential.

■DeviceNet Connection

It is essential that the bus line be terminated properly.

A mismatch of impedance may result in reflections on

the line that will corrupt data transmission.

The DeviceNet Option Card is provided with a

pluggable screw connector.

By using a pluggable screw connector as a splice

between two trunk lines, removal of devices will

not sever the network. Strain relief, if required,

must be provided by the developer. In current

installations of this type of connector, the strain

relief is attached to the product.

NOTE

Wires should not be installed while the

network is active. This will prevent problems

such as shorting the network supply or

disrupting communications.

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

■User Interface

The DeviceNet option card contains two bi-color

(green/red) LED’s for each connector hookup

port, to indicate the state of the device and

network, respectively.

For the device status LED:

1. whentheLEDisoff,thedeviceisoff

2. when the LED is green, the device is operational

3. When the LED is flashing green, the device

is in standby

4. when the LED is flashing red, the device

detects a minor fault

5. when the LED is red, the device detects

an unrecoverable fault

6. when the LED is flashing red/green, the

device is self testing

For the network status LED:

1. when the LED is off, the network is

non-powered/not online

2. when the LED is flashing green, the network

is online but not connected

3. when the LED is green, the network is

online and connected

4. when the LED is flashing red, the network

has a connection time-out

5. when the LED is red, the network has a critical link

failure. No further direct user interface is considered

No further direct user interface is considered.

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Technical

Data

■Understanding Module Configuration Switches

The DeviceNet Communication module’sDIP

switch settings determine:

• DeviceNet node address

• DeviceNet baud rate

When you make changes to the switch

settings, use a pointed instrument such

as a ball point pen. DO NOT use a

pencil because damage may occur

Unpredictable operation may occur if

you fail to check connections and DIP

switch settings for compatibility with your

application. Unpredictable operation may result in

death, personal injury, and equipment damage.

Hazard of injury or equipment damage

may occur due to unintended or incorrect

machine motion. When a system

is configured for the first time, the motor must

be disconnected from the machine or process

during initial system testing.

NOTE

When setting the Communication Module’s

addressing Dip Switches, you must ensure

that each serial device on the network has a

unique address. Also, all devices connected to the

network must be set at the same baud rate.

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

■EMC Precautions

EMC precautions The following EMC precautions are

recommended to obtain interference free operation of

the DeviceNet network. Additional information on EMC

can be found in the VLT 5000 Series Instruction Manual.

NOTE

Relevant national and local regulations,

for example regarding protective earth

connection, must be observed

The DeviceNet communication cable must be kept

away from motor and brake resistor cables to avoid

coupling of high frequency noise from one cable

to the other. Normally a distance of 8 inches (200

mm) is sufficient, but it is generally recommended

to keep the greatest possible distance between

the cables, especially where cables are running

in parallel over long distances.

If the DeviceNet cable has to cross a motor

and brake resistor cable they must cross each

other at an angle of 90°.

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Technical

Data

■Setting the DeviceNet Node Address

Dip switches 6 through 1 set the module’snode

address using binary addressing.

■Switch Settings for DeviceNet Node Addressing

Follow these steps to set the DeviceNet node address:

1. Refer to the table below for the switch settings

of a specific address.

2. Using your finger or a pointed object, slide switches

1 through 6 to the appropriate ON/OFF positions.

DeviceNet

Address

Switch

Settings

DeviceNet

Address

Switch

Settings

DeviceNet

Address

Switch

Settings

DeviceNet

Address

Switch

Settings

0 000000 16 000010 32 000001 48 000011

1 100000 17 100010 33 100001 49 100011

2 010000 18 010010 34 010001 50 010011

3 110000 19 110010 35 110001 51 110011

4 001000 20 001010 36 001001 52 001011

5 101000 21 101010 37 101001 53 101011

6 011000 22 011010 38 011001 54 011011

7 111000 23 111010 39 111001 55 111011

8 000100 24 000110 40 000101 56 000111

9 100100 25 100110 41 100101 57 100111

10 010100 26 010110 42 010101 58 010111

11 110100 27 110110 43 110101 59 110111

12 001100 28 001110 44 001101 60 001111

13 101100 29 101110 45 101101 61 101111

14 011100 30 011110 46 011101 62 011111

15 111100 31 111110 47 111101 63 111111

■Setting the Baud Rate

Dip switches 7 and 8 set the baud rate at which

the Communication Module communicates on the

network. The factory default setting is 125K BPS.

Switch Settings for DeviceNet Module Baud Rate:

Baud Rate Switch Setting

Switch Setting

125 kBPS 0 0

250 kBPS 1 0

500 kBPS 0 1

125 kBPS 1 1

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

■VLT Response Time

The update time via the DeviceNet connection

can be divided into two parts:

1. The communication time, which is the time it

takes to transmit data from the master to the

slave (VLT with DeviceNet option).

2. The internal update time, which is the time it takes

to transmit data between the VLT 5000 control

card and the DeviceNet option card.

Communication time (t

com

) depends on the actual

transmission speed (baudrate) and the type of master

in use. More data or lower transmission speed

will increase the communication time.

The internal update time (t

int

) depends on the type of

data in question as there are different channels for

the data transfer where time critical data e.g. control

word has highest priority. The internal update time for

the different types of data are stated below.

Data Update

time, t

int

Control word/Main reference (part of

PPO)

2msec

Status word/Actual output frequency

(part of PPO)

2msec

Parameter read via PCD-part of PPO 2 msec

Parameter write via PCD-part of PPO 83 msec

Parameter read/write via explicite

message

22 msec

■General Purpose Discrete I/O

The General Purpose Discrete I/O device I/O

assemblies consist of:

• five predefined input assemblies with single

status bits

• one product–specific input assembly with

asinglestatusbit

• five predefine input assemblies with multiple

status bits

• one product–specific input assembly with

multiple status bits

• five predefined output assemblies

• one product–specific output assembly

■I/O Assembly Instances

The I/O Assembly Instance definitions in this section

define the format of the "data" attribute (attribute 3)

for I/O Assembly Instances. I/O Assemblies support

a hierarchy of motor control devices. The device

hierarchy includes motor starters, soft starters, AC

and DC drives, and servo drives. Assembly Instances

are numbered within the hierarchy so that each

device type is assigned a range of Assembly Instance

numbers, with higher functionality devices supporting

higher instance numbers. Devices in the hierarchy

can choose to support instance numbers that are

lower than theirs in the hierarchy. For example an AC

drive may choose to support some I/O Assemblies

in the starter profile to make it easier to interchange

starters and drives within the system.

Parameter

904

Decimal WRITE Decimal READ

PP03 20 CTW SPEED

RPM

70 STW AC

REF

PP01 100 CTW REF 150 STW MAV

PP02 101 CTW REF 915.1 915.2 151 STW MAV 916.1 916.2

PP04 102 915.1 915.2 915.3 915.4 152 916.1 916.2 916.3 916.4

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Fieldbus

Profile

■Fieldbus Profile

■Control Word

ontrol Word as per Profidrive standard

(parameter 512 = Fieldbus Profile). The control word is

used for transmitting commands from a master (e.g.

aPC)toaslave(VLTfrequencyconverter).

Bit Bit = 0 Bit =1

00 OFF 1 ON 1

01 OFF 2 ON 2

02 OFF 3 ON 3

03 Motor coasting Enable

04 Quick stop Ramp

05 Freeze output

frequency

Ramp enable

06 Ramp stop Start

07 No function Reset

08 Jog 1 OFF ON

09 Jog 2 OFF ON

10 Data not valid Valid

11 No function Slow down

12 No function Catch

13 Choice of Setup (lsb)

14 Choiceof Setup(msb)

15 No function Reversing

Bit 00, OFF1/ON1:

An ordinary ramp stop which uses the ramp time

in parameters 207/208 or 209/210. Bit 00 = "0"

leads to a stop and leads to output relay 01 or

04 being activated, the output frequency is 0 Hz,

provided Relay 123 has been selected in parameter

323 or 326. Bit 00 = "1" means that the adjustable

frequency drive will be able to start if the other

conditions for starting have been fulfilled.

it 01, OFF2/ON2:

Coasting stop. Bit 01 = "0" leads to acoasting stop and

leads to output relay 01 or 04 being activated, when the

output frequency is 0 Hz, provided Relay 123 has been

selected in parameter 323 or 326. Bit 01 = "1" means

that the adjustable frequency drive is able to start

provided the other conditions for starting are fulfilled.

it 02. OFF3/ON3:

Quick-stop, which uses the ramp time set in parameter

212. Bit 02 = "0" leads to a quick stop and leads

to output relay 01 or 04 being activated, when the

output frequency is 0 Hz, provided Relay 123 has been

selected in parameter 323 or 326. Bit 02 = "1" means

that the adjustable frequency drive is able to start,

provided the other conditions for starting are fulfilled.

it 03, Coasting/enable:

Coasting stop. Bit 03 = "0" leads to a stop. Bit 03 =

"1" means that the adjustable frequency drive is able

to stop, provided the other conditions for starting are

fulfilled. Note: in parameter 502 the choice is made

as to how bit 03 is to be combined (gated) with the

corresponding function in the digital inputs.

it 04, Quick-stop/ramp:

Quick-stop which uses the ramp time in parameter

212. Bit 04 = "0" leads to a quick- stop. Bit 04 =

"1" means that the adjustable frequency drive is able

to start, provided the other conditions for starting are

fulfilled. Note: In parameter 503 the choice is made

as to how dit o4 is to be combined (gated) with the

corresponding function on the digital inputs.

it 05, Freeze output frequency/ramp enable:

Bit 05 = "0" means that the given output frequency is

maintained even if the reference is changed. Bit 05 =

"1" means that the adjustable frequency drive is again

able to regulate, and the given reference is followed.

it 06, Ramp stop/start:

An ordinary ramp stop that uses the ramp time in

parameters 207/208 or 209/210; in addition, output

relay 01 or 04 will be activated when the output

frequency is ) Hz, provided Relay 123 has been

selected in parameter 323 or 326. Bit 06 = "0" leads

to a stop. Bit 06 = ’1" means the adjustable frequency

drive is able to start, provided the other conditions for

starting are fulfilled. In parameter 505 the choice is

made as to how bit 06 is to be combined (gated) with

the corresponding function on the digital inputs.

it 07, No function/reset:

Reset of trip. Bit 07 = "0" means that there is no

reset. Bit 07 = "1" means that a trip is reset.

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VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Bit 08, Jog 1 OFF/ON:

Activation of pre-programmed speed in parameter

509 (Bus Jog 1). JOG 1 is only possible when

Bit 04 = "0" and bit 00-03 = "1".

it 09, Jog 2 OFF/ON:

Activation of pre-programmed speed in parameter

510 (Bus Jog 2). JOG 2 is only possible when Bit

04 = "0" and bits 00-03 = "1". If both JOG 1 and

JOG 2 are activated (bits 08 and 09 = "1"), JOG 1

has the higher priority, which means that the speed

programmed in parameter 509 will be used.

it 10, Data not valid/valid:

Used for telling VLT 5000 whether the control word is

to be used or ignored. Bit 10 = "0" means that the

control word is ignored. Bit 10 = "1" means that the

control word is used. This function is relevant because

the control word is always contained in the telegram,

regardless ofthe type oftelegram used, i.e. it is possible

to disconnect the control word if it is not to be used in

connection with updating or reading of parameters.

it 11, No function/slow down:

Used for reducing the speed reference by the

value in parameter 219. Bit 11 = "0" means that

thereisnochangeofthereference. Bit11="1"

means that the reference is reduced.

it 12, No function/catch-up:

Used for increasing the speed reference by the value of

parameter 219. Bit 12 = "0" means that the refe

rence

is increased. If both slow down and catch-up are

activated (bits 11 and 12 = "1"), slow down has the

higher priority, i.e. the speed reference

is reduced.

its 13/14, Choice of Setup:

Bits 13 and 14 are used for choosing among the

four menu Setups in accordance with:

Setup Bit 14 Bit 13

100

201

310

411

This function is only possible if Multi-Setups have

been selected in parameter 004.

NOTE

Parameter 507 is used for choosing how bits

13/14 are to be combined (gated) with the

corresponding function on the digital inputs.

it 15, No function/reversing:

Reversing of the direction of rotation of the

motor. Bit 15 = "0" leads to no reversing, bit

15 = "1" leads to reversing.

Note that as a point of departure reversing has

been selected as Digital in parameter 506. Bit 15

only leads to reversing if bus, logical or or logical

and has been selected (logical and, however,

only together with terminal 19).

NOTE

Unless otherwise mentioned, the control

word bit is combined (gated) with the

corresponding function on the digital

inputs as a logical "or" function.

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VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Fieldbus

Profile

■Status Word

tatus Word (according to Profidrive standard

(parameter 512 = Fieldbus Profile). The status word

is used for informing the master (e.g. a PC) of the

condition of a slave (VLT frequency converter).

Bit Bit = 0 Bit =1

00 Control not ready Ready

01 VLT not ready Ready

02 Motor coasting Enable

03 NO fault Trip

04 ON 2 OFF 2

05 ON 3 OFF 3

06 Start enable Start disable

07 No warning Warning

08 Speed - reference Speed = ref.

09 Local control Bus control

10 Out of operating

range

Freq. limit OK

11 Not running Running

12 VLT OK Stalls, auto-start

13 Voltage OK Above limit

14 Torque OK Above limit

15 Timer OK Above limit

Bit 00, Control not ready/ready:

Bit 00 = "0" means that bit 00, 01 or 02 of the control

word is "0" (OFF1, OFF2 or OFF3), or that the adjustable

frequency drive has tripped. Bit 00 = "1" means that

the adjustable frequency drive is ready, but that there

is not necessarily any supply to the power component

(in case of external 24 V supply to the controls).

it 01, VLT not ready/ready:

Samemeaningasbit00;however,thereisalsoa

supply to the mains component, and the adjustable

frequency drive is ready to run when it receives

the necessary start signals.

it 02, Coasting/enable:

Bit 02 = "0" means that the control word bit 00, 02

or 03 is "0" (OFF1, OFF2, OFF3 or Coasting), or the

VLT 5000 Series unit has tripped. Bit 02 = "1" means

that the control word bits 00, 01, 02 or 03 are "1"

and that VLT 5000 Series has not tripped.

it 03, No fault/trip:

Bit 03 = "0" means that VLT 5000 Series is not in a fault

condition. Bit 03 = "1" means that VLT 5000 Series has

tripped and needs a reset signal in order to run.

it 04, ON2/OFF2:

Bit04="0"meansthatcontrolwordbit01="1".Bit

04 ="1" means that control word bit 01 ="0".

it 05, ON3/OFF3:

Bit05="0"meansthatcontrolwordbit02="1".Bit

05 -"1" means that control word bit 02 ="0".

it 06, Start enable/start disable:

Bit 06 is always "0" if Danfoss has been selected in

parameter 512. If Profidrive has been selected in

parameter 512, bit 06 will be "1" after reset of a trip,

after activation of OFF2 or OFF3 and after connection

of mains voltage. Start disable is reset, setting control

word bit 00 to "0" and bits 01, 02 and 10 to "1".

it 07, No warning/warning:

Bit 07 = "0" means that there is no unusual situation.

Bit 07 = "1" means that an abnormal condition has

arisen for the VLT 5000 Series. All warnings described

in the VLT 5000 instruction manual will set bit 07 to "1".

it 08, Speed ref/speed. = ref.:

Bit 08 = "0" means that the actual motor speed is

different from the speed reference set. This can be

thecasewhilethespeedisrampedup/downduring

start/stop. Bit 08 = "1" means that the present motor

speed equals the speed reference set.

it 09, Local control/Bus control:

Bit 09 = "0" means that VLT 5000 Series has been

stopped by means of the stop key on the control panel,

or that Local operation has been selected in parameter

002. Bit 09 = "1" means that it is possible to control

theadjustablefrequencydriveviatheserialport.

it 10, Out of operating range/Freq. limit OK:

Bit 10 = "0" means that the output frequency is

out of the range set in parameter 225 (Warning:

Low frequency) and parameter 226 (Warning: High

frequency). Bit 10 = "1" means that the output

frequency lies within the mentioned range.

it 11, Does not run/runs:

Bit 11 = "0" means that the motor is not running. Bit

11 = "1" means that VLT 5000 Series has a start signal

of that the output frequency is greater than 0 Hz.

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Bit 12, VLT OK/stalling, autostart:

Bit 12 = "0" means that there is no temporary

overtemperature on the inverter. Bit 12 =’1" means that

the inverter has stopped because of overtemperature,

but that the unit has not tripped and will continue,

once the overtemperature stops.

it 13, Voltage OK/above limit:

Bit 13 = "0" means that the voltage limits of VLT

5000 Series have not been exceeded. Bit 13 = "1"

means that the DC voltage of the VLT 5000 Series

intermediate circuit is too low or too high.

it 14, Torque OK/above limit:

Bit 14 = "0" means that the motor current is

lower than the torque limit selected in parameter

221. Bit 14 = "1" means that the torque limit in

parameter 221 has been exceeded.

it 15, Timers OK/above limit:

Bit 15 = "0" means that the timers for the motor thermal

protection and VLT thermal protection, respectively,

have not exceeded 100%. Bit 15 = "1" means that

one of the timers has exceeded 100%.

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Fieldbus

Profile

Control Word under VLT standard

(parameter 512 = FC Profile). The control word is

used for sending commands from a master (e.g. a

PC) to a slave (VLT frequency converter).

Bit Bit = 0 Bit =1

00 Preset reference

choice Isb

ON 1

01 Preset reference

choice msb

ON 2

02 DC brake Ramp

03 Coasting Enable

04 Quick stop Ramp

05 Hold Ramp enable

06 Ramp stop Start

07 No function Reset

08 No function Jog

09 Ramp 1 Ramp 2

10 Data not valid Valid

11 No function Relay 01 activated

12 No function Relay 04 activated

13 Choice of Setup (lsb)

14 Choiceof Setup(msb)

15 No function Reversing

Bit 00/01: Bits 00 and 01 are used for choosing among

the four pre-programmed references (parameters

215-218) in accordance with the following table:

Preset ref. Parameter Bit 01 Bit 00

1 215 0 0

2 216 0 1

3 217 1 0

4 218 1 1

NOTE

Parameter 508 is where to choose the way

bits 1/12 are to be combined (gated) with the

corresponding function on the digital inputs.

it 02, DC Brake:

Bit 02 = "0" leads to DC braking and stop. Braking

current and duration are set in parameters 125 and

126. Bit 02 = "1" leads to ramping.

it 08, Activation of Jog speed in parameter 213:

Bit 08 = "0": Jog speed not activated. Bit 08 = "1"

means that the motor is running at Jog speed.

it 09, Choice of ramp 1/2:

Bit 09 = "0" means that ramp 1 is active (parameters

207/208). Bit 09 = "1" means that ramp 2

(parameters 209/210) is active.

it 11, Relay 01:

Bit 11 = "0": Relay 01 not activated. Bit 11 =

1: Relay 01 activated, provided Control word bit

has been chosen in parameter 323.

it 12, Relay 04:

Bit 12 = "0": Relay 04 has not been activated. Bit 12

= "1": Relay 04 has been activated, provided Control

word bit has been chosen in parameter 326.

See the description of other bits under control

word for Profidrive standard.

NOTE

Unless otherwise mentioned, the control

word bit is combined (gated) with the

corresponding function on the digital

inputs as a logical "or" function.

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Status Word under VLT standard

(parameter 512 = FC Profile). The status word is

used for informing the master (e.g. a PC) about the

condition of the slave (VLT frequency converter).

Bit Bit = 0 Bit =1

00 Control not ready Ready

01 VLT not ready Ready

02 Coasting Enable

03 NO fault Trip

04 Reserved

05 Reserved

06 Reserved

07 No warning Warning

08 Speed - reference Speed = ref.

09 Local control Bus control

10 Out of range Frequency OK

11 Not running Running

12 VLT OK Stalling, auto-start

13 Voltage OK Above limit

14 Torque OK Above limit

15 Timer OK Above limit

Bit 00, Control not ready/ready:

Bit 00 = "0" means that the adjustable frequency drive

has tripped. Bit 00 = "1" means that the adjustable

frequency drive controls are ready, but the power

component is not necessarily receiving any power

supply (in case of external 24 V supply to controls).

it 02, Coasting/enable:

Bit 02 = "0" means that the control word bit 03 is "0"

(Coasting) or that VLT 5000 Series has tripped.

Bit 02 = "1" means that control word bit 03 is "1"

and that VLT 5000 Series has not tripped.

See the description of other bits under status

word for the Profidrive standard.

us reference value:

The frequency reference value is transmitted to the

adjustable frequency drive in the form of a 16-bit word.

The value is transmitted as a whole number (0-32767).

16384 (4000 Hex) corresponds to 100%. (Negative

figures are formatted by means of 2’s complement.)

Thebusreferencehasthefollowingformat:

Parameter 203 = "0"

"ref

MIN

-ref

MAX

0-16384 (4000 Hex) ~ 0-100% ~ ref

MIN

-ref

MAX

Parameter 203 = "1"

-ref

MIN

-+ref

MAX

- 16384 (...Hex) - + 16384 (4000 Hex) ~

- 1000 - + 100% ~ - ref

MAX

-+ref

MAX

Actual output frequency

The value of the actual output frequency of the

adjustable frequency drive is transmitted in the

form of a 16-bit word. The value is transmitted

as a whole number (0-32767). 16384 (4000 Hex)

corresponds to 100%. (Negative figures are formed

by means of 2’s complement).

MG.50.H4.22 - VLT is a registered Danfoss trademark

VLT® 5000/ 5000 FLUX/ 6000 HVAC/

8000 AQUA DeviceNet

Fieldbus

Profile

■Control Word and Status Word under Instance 20/70

Set parameter 904 PPO type 1(900) to choose

Instance 20/70.

The control word in Instance 20 is defined as

following:

Instance Byte 0 Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0

20 0 Fault

Reset

Run

Fwd

2 Speed reference (low byte)

3 Speed reference (high byte)

Bit 0, Run Fwd:

Bit 0 = "0" means that the VLT frequency

converter has a stop command.

Bit 0 = "1" leads to a start command and the VLT

frequency converter will start to run the motor.

it 2, Fault Reset

Bit 0 = "0" means that there is no reset of a trip.

Bit 0 = "1" means that a trip is reset.

The Speed reference in Instance 20 is defined as a

word. See description by Bus reference Value.

The status word in Instance 70 is defined as following:

Instance Byte 0 Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0

70 0 Run-

ning

Fault

2 Speed actual value (low byte)

3 Speed actual value (high byte)

Bit 0,Fault:

Bit 0 = "0" means that there is no fault on the

VLT frequency converter.

Bit0="1"meansthatthereisafaultonthe

VLT frequency converter.

it 2, Running

Bit 0 ="0"means that there isno active start command.

Bit 0 = "1" means that there isan active start command.

The Speed Actual value in Instance 70 is defined as a

word. See description by Actual Output frequency

MG.50.H4.22 - VLT is a registered Danfoss trademark

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Danfoss VLT 5000 Flux (Legacy Product) Operating instructions

Brand: Danfoss

Model: VLT 5000 Flux (Legacy Product)

Type: Operating instructions

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Danfoss VLT 5000 Flux (Legacy Product) Operating instructions

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